NL2009941C2 - ELECTRONIC SWITCH DEVICE. - Google Patents

Abstract

The invention relates to an electronic fuse for an electric low voltage power conduit, comprising: - a current sensor coupled to the power conduit for measuring an electric current through said power conduit, - a switch in said power conduit being connected to a switching module, for switching said switch between a interrupted and a conductive state; wherein said switching module is connected to said current sensor and comprises a switching circuit for performing a switching operation of said switch on the basis of a measured current. The electronic fuse is characterized in that said electronic fuse comprises a memory with a library of switching behavior of at least one mechanical fuse and a comparison unit for comparing use data of said power conduit with a turn off moment of the at least one mechanical fuse; and wherein said switching module is connected to a wireless transmitting and receiving device for wirelessly transmitting data regarding the position of said witch.

Description

P068 / NLpd

Electronic switching device

The present invention relates to an electronic switching device according to the preamble of claim 1, in particular a remote-controlled electronic switching device. According to a particularly preferred embodiment, the invention relates to an electronic fuse.

For example, in EP 1523080 such a switch is described whose switched state can be read remotely. In order to be able to distinguish the state of different switches from each other, a code is placed on the supply signal 10 of the electronic circuits associated with the switches.

The known switch has the disadvantage that a separate signal must be placed on the power supply in order to be able to read the state of a switch. The design of the electronic circuit is thus extended, which can lead to the loss of functions.

The present invention has for its object to provide an improved switch of the type mentioned in the preamble.

In particular, the invention has for its object to provide a switch 20 of the type mentioned in the preamble which does not have to add a separately coded signal to a supply line in order to be able to read out a state of the switch.

It is also an object of the invention to provide an improved switch of the type mentioned in the preamble, which can be read regardless of the position of the user.

In order to obtain at least one of the aforementioned advantages, the invention according to a first embodiment provides a switch comprising the features of claim 1. This switch has the advantage that it is very easy to read the switch without having to place a separately coded signal on a power supply. The reading can now take place directly. The invention also has the advantage that the reading can take place at any arbitrary position of the user. This is a major advantage especially when the switch is located in a location that is difficult to access. Due to the smaller number of individual electronic components, the chance of failure will also decrease compared to the systems known in the art, whereby a large efficiency and cost advantage is obtained.

It is particularly preferred here that the switching module comprises a manually operable switch for causing the switch to switch. When maintenance is carried out at a switching station where the switch is installed, a direct switch-off of the electrical supply lines can therefore take place at any time.

Furthermore, it is preferred that the electronic switch device comprises a power supply unit for electrically supplying the switch module, the power supply unit being electrically connected to the electric power line. The electricity supplied by the electric power line can therefore be used simply for controlling and controlling the position of the switch. In the event of a power failure from the electrical supply line, it is preferable that the switch can continue to be operated. Therefore, an electronic switching device is preferred which comprises a battery to be fed by the electric supply line, as well as a control circuit for switching on the battery in the event of failure of the electronic supply line.

As can be considered known, electronic switches, both the switches that are used in high voltage lines and medium and low voltage lines, can handle a limited number of circuits, until the maximum safe life is reached. For that reason, it is preferable that the electronic switch, for example the switch module, comprises a counter for recording the number of switch movements of the switch that have occurred due to an excessive current in the monitored line being measured. In particular, the energy that is released at a closure or opening at which the circuit occurs also has an effect on the life of the switch.

The electronic switch further comprises a counter for keeping track of the number of times the switch has been manually converted. In the case of maintenance or testing, this may limit the maximum number of times that the switch is activated (also indicated by the term converted). In particular when a fault in the network line has been signaled and the cause thereof must be determined, frequent manual activation of the switch at a location elsewhere in the network line may cause damage. The counter therefore has the object of limiting the maximum number of times that the switch can be manually activated. For this purpose, a safety can be provided in the electronic switch which limits the possibility of manually activating the switch.

The invention therefore also relates to an electronic switching device as claimed in any of the foregoing claims, wherein it comprises at least one counter for recording at least one of: - the number of manually induced switching movements of the switch, and - the number based on a current intensity induced switching movements of the switch measured on the controlled line; taking into account the energy released during the circuit.

In order to be able to obtain an indication of a current position of the switch at all times, it is preferable that the electronic switching device is also adapted to register a current position of the switch. According to a further preferred embodiment, it is preferred that the electronic switch comprises a memory module for recording the number of switching movements of the switch, preferably in combination with a time indication of each switching movement.

In order to be able to provide suitable data transfer between the electronic switching device and a user at all times, it is preferred that the switching device comprises at least two different wireless transmitting and receiving devices 35, each of which preferably operates via a different protocol. For example, the wireless transmitting and receiving device may be arranged for data transfer based on at least one of 4 GPRS, WiFi, Zigbee, IQRF, SimplelT, Beestack, Z-wave, KNX, EnOcean, Bluetooth or the like.

When the switching module or other component of the electronic switching device is to be programmed or otherwise provided with data, it is preferred that the switching device comprises a provision for inputting data to the switching device. In particular, it is preferred that the programmable electronic switch is designed as an electronic fuse, wherein a delay mechanism can be programmed. A delay is generally known with mechanical fuses. A switch will be able to switch off the line when a current is measured in a line that is higher than a predetermined value. A fuse has the behavior that with a small transfer of the predetermined value the line is not yet switched off. This will only take place in the event of a longer exceedance, whereby the shutdown will generally take place sooner in the case of a strong exceedance than in the case of a small exceedance. The electronic fuse according to the invention comprises a programmable switching module which comprises a delay step, such that a small, short-term exceedance of the predetermined value does not cause a switch-off, but a longer-term exceedance does. In this case, a strong excess will cause a switch-off rather than a small excess.

To enable communication between the switching device and a user who inputs such data to the switching device, it is preferable that the switching device comprises a provision for displaying data generated by the electronic switching device.

In order to be able to selectively switch on or switch off all electrical supply lines simultaneously or one of the supply lines by means of the switch, it is preferred that the electronic switching device is adapted to switch an electric supply line with at least two network lines, comprising at least one of [a] a switch which is adapted to cause switching of all mains lines simultaneously, 5 and [b] respectively, a switch for causing to selectively switch one or more of the electrical supply lines.

A modular system can be obtained when the electronic switching device comprises a control module connected to the switching module and the wireless transmitting and receiving device, for providing communication between the wireless transmitting and receiving device and the switching module.

It is herein preferred that the control module is also connected to the power supply unit for supplying the electronic switching unit.

The electronic fuse can advantageously be provided with the parts and measures described hereinbefore and hereinafter separately mentioned with regard to the electronic switch. In particular, the invention relates to an electronic fuse, comprising an electronic switch according to the invention and a programmable module for providing a switching delay when signaling a measured value of an electric current in the electric supply line that is higher than a predetermined value.

The invention will be explained in more detail below with reference to a drawing. The drawing here shows in FIG. 1 is a switching circuit of an electronic switching device according to the invention.

Not all parts necessary for a practical embodiment of the invention have been shown, because of the simplicity of the representation.

FIG. 1 shows a schematic circuit of an electronic switching device 100 according to the invention within the dotted line. The switching device 100 comprises current sensors 102 which are electrically coupled to electrical network lines, further indicated by N, L1, L2, L3, which comprise an input 101 and an output 120. In the embodiment shown in FIG. 1, three phases (L1, L2, L3) and a neutral cable (N) are shown. However, the electronic switching device 100 is equally applicable to any other embodiment, for example two phases or a single phase with a neutral cable. For example, the network lines can be high-voltage lines.

6

The electronic switching device 100 can suitably be designed as an electronic fuse 100. Electronic fuses are known in practice. To this end, the electronic switching device 100 comprises a control circuit which is coupled to the sensors 102 for measuring a current through the network lines, further designated L1, L2, L3. At a predetermined maximum current, the electronic switching device 100 will actuate switches 103 to disconnect the line lines L1, L2, L3. The predetermined maximum current can for instance be a safe limit value 10 for the relevant network lines.

The electronic switching device 100 comprises a switching module which is connected to the switch 103 and is adapted to actuate the switch 103. A design for the control circuit for actuating the switch 103 at a predetermined measured current through the network lines is known in practice.

If there is a need for manually operating the switch 103, manually operated switch buttons 109, 110 may be provided, for example in the form of push buttons or rocker switches, which can cause the switch 103 to switch between a conductive and interrupted position.

The electronic switching device 100 as shown within the dotted line in FIG. 1, comprises a control module 108. For example, the control module 108 may include the switch module for actuating the switch 103 integrated therein. Optionally, the control module 108 can be considered as a switching module, the switching module integrated therein comprising the control circuit for actuating the switch 103.

In the following, reference will generally be made to control module 108 which is adapted to actuate the switch and which comprises the control circuit for assessing the current fed through the network lines.

The electronic switching device 100 is connected by a supply line 107 to a power supply which comprises an AC / DC converter 106 which is supplied by the mains lines L1, L2, L3. The power supply 35 must be sufficiently designed for the electronic switching device 100 to be able to perform all desired operations. To this end, the converter 106 is connected by supply lines 104 to the mains lines L1, L2, L3. It is also connected to a battery 105. The battery is kept in a charged state and serves as a power supply for the control module 108 when there is no voltage on the power lines, for example because the switch 103 is in an interrupted position or because an interruption in elsewhere the network lines have taken place. The battery must have sufficient capacity for the control module, for example, to be able to operate the switch 103, and to be able to send out a message via a wireless transmitting and receiving device 111, 112, 113 (these will be described in more detail below) of the current state of the electronic switching device 100.

The control circuit of the control module 108 may preferably be programmable. To this end, a data entry device 115 may be provided, for example a keyboard. To provide interaction with the control module, a display 114 or the like may also be provided.

The control module 108 is preferably programmable by software. As a result, the control module 108 can be equipped with a delay effect in accordance with a time flow diagram 20 such as a fuse of a conventional (mechanical) fuse. Such a delaying effect provides the property of a fuse that a slight exceeding of a maximum set load does not immediately lead to a direct switch-off of the switch 103. Any delay curve 25 (such as a conventional fuse may be present) can be programmed in the present switch. The present switch can hereby be used simply and in a very suitable manner as an electronic fuse which can be switched on and off remotely.

In order to be able to provide interaction with the control module 108 from a remote position, the control module is provided with wireless transmitting and receiving devices 111, 112, 113. For example, each transmitting and receiving device can be arranged for a particular protocol, for example a of GPRS, WiFi, Zigbee, IQRF, SimplelT, Beestack, Z-wave, KNX, EnOcean and Bluetooth or another wireless protocol.

A user may approach the electronic switching device 100 with a checking device that may be provided with its own transmitting and receiving device 116, 117, 118. Communication from substantially any desired position is therefore possible.

In particular, the switching on and off of the switch 103 can pose some danger to a user, in particular when the network lines are high-voltage lines. Furthermore, the switch 103 has a limited life, in the sense that it can perform a maximum number of circuits.

Preferably, the control module also comprises a counter which stores the number of switching movements of the switch 103 in a memory. The memory can be read out via the wireless transmitting and receiving device. According to a preferred embodiment, the electronic switching device 100 independently sends a notification to a base station (not shown), for example coupled to a transmitting and receiving device 116, 117, 118 when a maximum number of switching movements has been made, so that the electronic switching device 100 can be replaced.

In practice, the service life of the switch 103 will be limited by a combination of the number of times that the switch 103 has been activated and the current intensity that passed through the network lines L1, L2, L3. With a low current or dead line, the maximum number of circuits of the switch 103 will be higher than with a high current. Therefore, it is preferred that the counter that keeps track of the number of manually permitted circuits can be reset or that the value of the maximum number of operations that can be safely performed can be increased. This is in particular possible without any problem if the current intensity during the switching operations is low or nil and the service life of the switch 103 is substantially unaffected by these circuits. Such a reset operation or value change can be programmed wirelessly or performed via the data entry device 115. A person skilled in the art is able to provide the electronic fuse with such a programmable module to enable the switch to function as an electrical fuse with a switching inertia as mentioned above.

The invention is not limited to the embodiments described above and shown in the figures. The switch 103 may be in the form of a relay, which embodiment is also covered by the present description and claims. The invention is only limited by the appended claims.

The invention also extends to any combination of measures described above independently of each other. In particular, the electronic fuse can advantageously be provided with the above-described parts and measures which have been mentioned with regard to the electronic switch.

Claims (14)

An electronic switching device for an electrical supply line, comprising: - a current sensor coupled to the supply line for measuring an electric current through the supply line, 5. a switch in the supply line which is connected to a switching module, for interrupting between an interrupted and switching the switch's conductive position; wherein the switching module is connected to the flow sensor and comprises a switching circuit for switching the switch on the basis of a measured current, characterized in that the switching module is connected to a wireless transmitting and receiving device for wireless transmission of data about a position of the switch. The electronic switching device according to claim 1, wherein the switching module comprises a manually operable switch for causing the switch to switch. 3. Electronic switching device as claimed in claims 1 and 2, comprising a power supply unit for electrically supplying the switch module, wherein the power supply unit is electrically connected to the electric power line. 4. Electronic switching device as claimed in claim 1, 2 or 3, wherein the electronic switching device comprises an optional battery to be supplied by the electric supply line, and a control circuit for switching on the battery in the event of failure of the electronic supply line. Electronic switching device as claimed in any of the foregoing claims, wherein it comprises at least one counter for registering at least one of: - the number of manually induced switching movements of the switch, and - the number based on a current measured on the controlled line. induced switching movements of the switch; taking into account the energy released during the circuit. An electronic switch device according to any one of the preceding claims, wherein the electronic switch device is also adapted to record a current position of the switch. 7. Electronic switching device as claimed in any of the foregoing claims, wherein the wireless sending and receiving device is adapted for data transfer based on at least one of GPRS, WiFi, Zigbee, IQRF, SimplelT, Beestack, Z-wave, KNX, EnOce-an , Bluetooth or the like. 15 8. Electronic switching device as claimed in any of the foregoing claims, further comprising a provision for entering data to the switching device. 9. Electronic switching device as claimed in any of the foregoing claims, wherein the switching circuit is adapted for programming for controlling switching moments of the switching module on the basis of electric current measured by the current sensor. 10. Electronic switching device as claimed in any of the foregoing claims, further comprising a provision for displaying data generated by the electronic switching device. 11. Electronic switching device as claimed in any of the foregoing claims, for switching an electrical supply line with at least two network lines, comprising at least one of [a] a switch which is arranged for switching all network lines simultaneously or [b] a switch for selectively switching one or more of the electrical supply lines. 35 An electronic switching device according to any one of the preceding claims, wherein it comprises a control module connected to the switching module and the wireless transmitting and receiving device, for providing communication between the wireless transmitting and receiving device and the switching module. The electronic switching device according to claim 12, wherein the control module is also connected to the power supply unit for supplying the electronic switching unit. 14. Electronic fuse, comprising an electronic switch according to any one of the preceding claims and a programmable module for providing a switching delay when signaling a measured value of an electric current in the electric supply line which is higher than a predetermined value. 15